Abstract: A system and method for determining impurities in a beverage grade gas such as CO2 or N2 relies on a coupling of FTIR analysis and UV fluorescence detection. Conversion of reduced sulphur present in some impurities to SO2 can be conducted using a furnace. In some cases, CO2 % also is determined.

Abstract: A health monitoring system for receiving a medical test sample from a donating participant having a chronic disease of a plurality of such participants and includes an audiovisual feedback application engine having a display application. The display application receives the test input signal and generates a feedback audiovisual output signal based on the test input signal. Accordingly, in operation, each feedback audiovisual output signal is displayed on the output device, such as among others the corresponding audio and visual output displays of the output device used by the donating participant and, optionally, the plurality of participants. The feedback application engine generates a continuous audio display and a continuous visual display by combining each consecutive feedback audiovisual signal received to form an electronic audiovisual playback file corresponding to the donating participant for attachment to an electronic medical record.

Abstract: A pollution mapping system and method utilizes relative pollution data or pollution variations to provide pollution maps, history, and other information relating to the same. The system may comprise a central server that receives pollution data for individual pollution events, and process the pollution data to generate information such as pollution maps, history, or notifications. Pollution data will be received from a multitude of sensors, typically as the sensors travel through traffic, and includes at least pollution variation amplitude, detection location, and detection time.

Abstract: The invention relates to an improved and simpler method and to an apparatus for the determination of the CO2 emission factor in flare gas plants comprising the steps: a) measuring the speed of sound in the flare gas; b) detecting known proportions of N2, CO2 and H2O; c1) calculating a maximum speed of sound of the flare gas under the assumption that the hydrocarbon proportion of the flare gas only consists of alkanes having a chain length i; c2) calculating a minimal speed of sound of the flare gas under the assumption that the hydrocarbon proportion of the flare gas only consists of alkanes having a chain length i+1; c3) varying the chain length i for so long until the measured speed of sound lies between the calculated minimal speed of sound and the calculated maximum speed of sound; d) varying the proportions of the alkanes having the chain length i and the chain length i+1 determined in step c) for so long until the speed of sound calculated with these proportions lies within a predefined difference from

Abstract: Disclosed are exemplified methods and systems that uses scientific and statistical basis to determine whether wells can be removed from a monitoring network and/or whether the frequency of well sampling can be reduced and/or whether the number of constituents being analyzed can be reduced. The exemplified method facilitates a more accurate and precise assessment of the sufficiency of the monitoring in decision making processes to modify the monitoring protocol of wells at a given contaminated site as well as to provide a defensible assessment and analysis that is empirical, graphical, and easy to understand.

Abstract: A facility for monitoring a geological storage site for storing a gas, such as CO2 or methane, comprises, in combination, at least one geochemical measurement device (DMG), comprising a plurality of gas sampling probes (SPG) connected to a gas analyzer (AG), an electrical measurement device (DME) comprising a plurality of electrodes (ELEC) and a resistivity meter (RES), and a meteorological station (SM). The geochemical and electrical measurement devices are controlled by a logic controller (AUT). The geochemical and electrical measurement devices and the meteorological station are connected to a data collector (COLL) that is itself connected to means for transmitting said data (MTD).

Abstract: A system and method involve transmitting, using an optical device, a plurality of optical pulses into an atmospheric propagation channel towards a target object. Using an imaging device, more than one optical signals and an image of the target object are detected from the atmospheric propagation channel. The optical signals are produced by interaction between the transmitted optical pulses and the atmospheric propagation channel and include elastic backscatter return signals, inelastic backscatter return signals, and polarization signals. A processor simultaneously processes the elastic and inelastic backscatter return signals, the polarization signals, and information contained within the image of the target to determine estimates of one or more physical parameters of the atmospheric propagation channel.

Abstract: A method for calibrating a furnace enabling a semiconductor material to be subjected to a first thermal donor formation annealing that includes a temperature rise, a first temperature plateau and a temperature drop of the furnace, the method to including providing a calibration piece of the semiconductor material; determining the interstitial oxygen concentration of the piece; subjecting the piece to a second thermal donor formation annealing in the furnace, the second annealing including rise and drop in temperature of the furnace identical to those of the first annealing and a second plateau at the set temperature for a set time; determining the concentration of thermal donors formed in the piece during the second annealing; determining an equivalent annealing time at the set temperature, corresponding at least to the rise and drop in temperature of the furnace, from the interstitial oxygen concentration, the thermal donor concentration of the piece and the set time.

Abstract: Microcantilevers and systems incorporating the microcantilevers are described that can be utilized to perform selective detection of VOCs. The systems can detect VOCs at temperatures below the auto-ignition temperature of the VOCs and the microcantilevers need not be functionalized with any reactive groups particularly designed for the VOCs to be detected. The microcantilevers are triangular microcantilevers that can be formed of high bandgap semiconductors such as AlGaN/GaN heterojunction semiconductors.

Abstract: A method for investigating the shelf life of food in packaging. The method includes the following to be carried out: a) creating at least one reference measurement with: a direct and indirect sample measurement at the time, repetition of the direct and indirect sample measurement at predefined intervals of time, storage of the reference measurement results of the sample measurements; creating a comparison measurement with: at least one indirect sample measurement at the time, comparison of the indirect measurement result with the corresponding reference measurement result from the comparison time, performance of at least one direct sample measurement at the time if a deviation of the comparison result from step is exceeded, repetition of the indirect sample measurement at predefined intervals of time, storage of the measurement results of the sample measurements.

Abstract: In a method for calibrating at least one sensor, in particular a pressure sensor, having at least one signal-conducting connection to at least one signal converter, a sensor characteristic is recorded by the determination of at least one measurand at at least two different temperatures, the extent of the influence of a further value influencing the sensor is determined from the sensor characteristic by means of a functional relation, the extent of the influence of the further influencing value is considered in the calibration and the influence of the further influencing value is balanced in the calibration. As a result, the influence of a further influencing value acting on the sensor is corrected.

Abstract: A method can include emitting, from a light source, directional light through fuel contained in a fuel tank, and determining a refraction angle of the directional light after the directional light passes through an interface with the fuel. The method can further include determining, by a processing device, an index of refraction of the fuel based on the determined refraction angle, and determining, by the processing device, a density of the fuel based on the determined index of refraction of the fuel.

Abstract: A measuring device (10) and a measuring method measure a concentration of gaseous and/or aerosol components of a gas mixture. A reaction carrier (14) has a flow channel (42) defining a reaction chamber (46) with an optically detectable reaction material (48) to react with at least one component or with a reaction product of the component. The measuring device (12) includes a gas delivery unit (2) and detection unit (3) having a lighting device (37) for lighting the reaction chamber (46). An optical sensor (38) detects the reaction. An evaluation unit (4) evaluates data of the optical sensor (38) to determines a concentration. The gas delivery unit (2) includes a gas delivering device (28) delivering the gas mixture through the gas outlet channel (18) and a control/regulation unit (31) which controls/regulates a flow of the gas mixture through the flow channel (42) depending on at least one reaction speed parameter.

Abstract: A system to evaluate airborne hazards having at least one sensor module which detects atmospheric conditions and generates output signals representative of those atmospheric conditions. A model module receives the output from the sensor and generates a model output signal representative of a calculated wind flow and plume footprint, when applicable, over an area of interest. A display module receives the model output signal and visually displays the calculated wind flow and its effect on a plume if present in near real-time. The final system output is provided to authorized end users in near real-time.

Abstract: A method of analyzing gas chromatography data is described. The method, a first response factor data set acquired from a gas chromatograph (GC) apparatus during a procedure on a calibration or reference gas sample at a first time is received. One or more additional response factor data sets acquired from the gas chromatograph apparatus during a procedure on a calibration or reference gas sample from one or more later times are received. The method comprises calculating a measure of uncertainty for at least one compound of the reference gas sample from the first and additional response factor data sets. The one or more later times are during an operational period of the gas chromatograph apparatus. The measure of uncertainty may be used to, for example, identify the necessity to perform a maintenance action in the GC or to assess whether the GC is in a healthy or unhealthy condition.

Abstract: In one embodiment, a CO2 leak detection instrument detects leaks from a site (e.g., a CO2 sequestration facility) using rapid concentration measurements of CO2, O2 and optionally water concentration that are achieved, for example, using laser spectroscopy (e.g. direct absorption laser spectroscopy). Water vapor in the sample gas may not be removed, or only partially removed. The sample gas may be collected using a multiplexed inlet assembly from a plurality of locations. CO2 and O2 concentrations may be corrected based on the water concentration. A resulting dataset of the CO2 and O2 concentrations is analyzed over time intervals to detect any changes in CO2 concentration that are not anti-correlated with O2 concentration, and to identify a potential CO2 leak in response thereto. The analysis may include determining eddy covariance flux measurements of sub-surface potential carbon.

Abstract: An apparatus for determining or monitoring at least one process variable, comprising: a sensor element and a measuring electronics, which form a measuring unit; and at least one control/evaluating/calculating unit arranged removed from the measuring unit; and/or an in/output unit arranged removed from the measuring unit and the control/evaluating/calculating unit. The control/evaluating/calculating unit and the in/output unit are connected with the measuring unit via a first interface and a second interface. The measuring electronics operates the sensor element and forwards the measurement signals via the interfaces to the control/evaluating/calculating unit as unprocessed, raw, measured values. The control/evaluating/calculating unit arranged removed from the measuring unit determines, improves and/or monitors the process variable based on the raw, measured values and makes such available via the in/output unit.

Abstract: The present disclosure provides adaptive methods for gas chromatography analysis of a gas sample comprising one or more target analytes (such as a micro-gas chromatography) and adaptive gas chromatography devices for carrying out such analytical methods. Broadly, the system can regulate flow into a downstream chromatographic column by detecting one or more upstream conditions. For example, one adaptive chromatography device comprises a first column, a modulator component, and a second column. A first detector or sensor detects the presence of target analytes upstream from the second column, while a second detector detects the presence of target analytes eluted from the second column. The modulator component assembly is responsive to an output generated by the first detector and adaptively regulates fluid flow into the second column. Such adaptive chromatography (micro-GC) systems have higher separation speed, better analyte identification capability, and far greater energy savings.

Abstract: An optical absorption gas sensor has an LED light source and a photodiode light detector, a temperature measuring device for measuring the LED temperature and a temperature measuring device for measuring the photodiode temperature. The sensor is calibrated by measuring the response of photodiode current at zero analyte gas concentration and at a reference analyte gas concentration. From these measurement, calibration data taking into account the effect of photodiode temperature on the sensitivity of the photodiode and, independently, the effect of changes in the spectrum of light output by the LED on the light detected by the photodiode with LED temperature can be obtained. Calibration data is written to memory in the gas sensor and in operation of the gas sensor, the output is compensated for both LED and photodiode temperature. The LED and photodiode can therefore be relatively far apart and operate at significantly different temperatures allowing greater freedom of optical pathway design.

Abstract: Method and device for detection and quantitative and qualitative analysis of components in a gaseous mixture distinguished by high selectivity and high resolution. Method allows to distinguish the influence of individual gases, by themselves or in a mixture, on the microstructure of a sensor's sensitive layer and utilizing the variations of measured parameters to analyze and derive the characteristics of gases, for example, the concentration of a gas or multiple gases in a mixture. As an example, the method could be utilized in medicine for non-invasive detection of the blood glucose level in diabetics. Device realizing the method is described.

Abstract: The embodiments described herein are directed to setup of a transport refrigeration system and providing transport refrigeration system diagnostic information to a user. In particular, interfaces on a wireless end node and a network coordinator of a wireless communication system are configured to provide setup and diagnostic functionality of the wireless communication system to a user with limited expertise in wireless communication systems.

Abstract: Protection of a solid-state imaging device is disclosed. One example of a protection unit includes a capacitor connected between an output terminal of a shutter drive pulse of a pulse drive unit and a substrate voltage terminal of a solid-state imaging device, a diode connected between a predetermined potential point and the substrate voltage terminal, and a clamp circuit configured from a resistor element connected between the substrate voltage terminal and a reference potential point. An anode end of the diode is connected to the predetermined potential point to which a potential corresponding to a rated voltage of the substrate voltage terminal is applied.

Abstract: A resistance testing apparatus makes use of a modular design for cascaded, parallel, bipolar current sources to obviate the need for electromechanical or pneumatic switching systems.

Abstract: Systems and methods are disclosed for analyzing building sensor information and decomposing the information therein to a more manageable and more useful form. Certain embodiments integrate energy-based and spectral-based analysis methods with parameter sampling and uncertainty/sensitivity analysis to achieve a more comprehensive perspective of building behavior. The results of this analysis may be presented to a user via a plurality of visualizations and/or used to automatically adjust certain building operations. In certain embodiments, advanced spectral techniques, including Koopman-based operations, are employed to discern features from the collected building sensor data.

Abstract: Exhaust after treatment systems for internal combustion engine powered vehicles are provided. One system includes logic in the form of one or more routines implemented by one or more of the system's components for determining the quantity of NO2 present in the exhaust that exits an oxidation catalyst, such as a diesel oxidation catalyst (DOC), without the use of an NO2 sensor. Results from such a determination may then be used to estimate the amount of soot present in the particulate filter. This estimated value of soot present in the particulate filter can then be subsequently used to determine when the particulate filter should be actively regenerated.

Abstract: A method for determining the relative humidity of an insulating liquid filled electric apparatus including a container containing insulating liquid and gas, a communication unit providing communication between the gas of the container and gas of an external environment, and providing dehydration of gas passing through the communication unit, wherein the method includes: continuously measuring and storing the relative humidity of the gas in the container, calculating an average value of the relative humidity in the gas based on the stored humidity measurements during a certain time period, and determining the relative humidity of the insulating liquid based on the average value of the relative humidity in the gas and a relationship between the relative humidity of the gas and the relative humidity of the insulating liquid at equilibrium.

Abstract: A method of investigating differences in data produced by at least one analytical instrument comprising providing a first data set from a first sample in a plurality of data bins; providing a second data set from a second sample in a plurality of data bins; providing a data model of said data sets in which the data in a plurality of data bins from the first data set is linked to the data in the corresponding bins of the second data set, each linked pair having an associated switch parameter linking the two together; and, exploring the posterior probability distribution for the data model as a function of the switch parameters to produce a posterior probability distribution map.

Abstract: The concept underlying the invention is the development of a generic method for the detection and identification of gases in airplane interior spaces and an associated device, which is small and manageable, has a simple design, and allows the immediate and simultaneous detection and identification of the gases to be examined. This is achieved in that the supply air of the airplane interior space (20) is fed to a measuring device (1) and the measurement results of the measuring device (1) are analyzed by means of mathematical methods. Such methods and the associated devices for the detection and identification of gases in airplane interior spaces are used in order to spot and verify gases, particularly odors and explosive gases and/or gases harmful to people's health.

Abstract: A system and a method for determining the relative value of a naphtha product includes reforming the naphtha into fractions at a predetermined constant research octane number (RON), conducting PIONA analysis on the reformate, after which modules or steps are performed to assign the feed quality, assign the total liquid yields, assign raw product yields, normalize the assigned raw product yields, assign a value to one or more fractions, and calculate a total value of the naphtha stream. The method is repeated on samples of different crude oils in order to provide relative values at the predetermined RON for comparison purposes.

Abstract: A method of determining the plus-fraction correction for a heavy oil sample including analyzing the heavy oil sample using gas chromatography, selecting an elution ratio based on the percentage of plus-fraction elution, applying the elution ratio to provide a maximum carbon number and a plus-fraction correction to compensate for the non-elution of the plus-fraction. An elution ratio as a function of the percentage of C60+ elution is provided. A corrected molecular weight for the C60+ fraction (MWC60+) and the C90+ fraction (MWC90+) as well as the total oil (MW) is provided.

Abstract: A method is provided for operating a gas concentration monitoring system as well as a gas-measuring device, a central unit, a gas concentration monitoring system as well as computer program product. The safety of persons or the safety of a situation is determined with respect to at least one hazardous gas. The concentration of the gas is provided to a memory and analysis device. A measured value rating number is determined for a preset period of use. A number of instances, of the measured concentration values exceeding of a preset gas concentration limit value is input. A safety code is determined from at least one of: the measured concentration values, the measured value rating numbers and from the a total number of instances in which a gas concentration limit value was exceeded.

Abstract: A system and a method for calculating the cetane number, pour point, cloud point and aniline point of a gas oil fraction of a crude oil from the density and near infrared spectroscopy of a sample of the crude oil.

Abstract: A system and a method for calculating the cetane number, pour point, cloud point and aniline point of gas oil fractions of a crude oil sample from the density and gas chromatographic simulated distribution of the sample.

Abstract: A method for determining origins of food products, and more specifically for determining geographic and/or biological origin of food products containing alcohols or sugars includes preparing an alcohol sample from a product in question, removing exchangeable hydrogen/deuterium atoms from alcohol molecules of the sample, determining the isotopic composition of non-exchangeable hydrogen/deuterium atoms from sample alcohol, and analyzing results for adulteration or determination of product origin. In addition, alcohol ?13C and ?18O isotopic values, along with ?18O isotopic value of the product water are used for the analysis. Products containing sugar are also subjected to tightly controlled fermentation.

Abstract: The present invention is related to an apparatus facilitating the automation of gaseous sample analysis and the method thereof. Specifically, the present invention is related to the apparatus that is capable of detecting and converting a reading from a first matrix to a second matrix, thus simplifies a calibration process required for the gaseous sample analysis and the method thereof.

Abstract: Sensing particular gases in a mixture uses precise modulated heating. Sensor relative responses are compared at different temperatures and compared with known relative responses to identify gases and concentrations. Heater current sensors provide feedback control and microprocessor inputs. A processor controls complex impedances and varied frequencies in the sensors. Sensor responses at varied complex impedances and at varied frequencies are compared with known responses at those impedances and frequencies to determine existence and concentration of particular gases. Heater and sensor buses are separate or combined.

Abstract: By using information collected on-site, estimation of a damage area at that time and also prediction regarding subsequent expansion of a disaster-affected area are performed. The estimation device includes a storage unit that stores an exposure calculation formula expressing an exposure amount, which is an integrated value of the concentration of a material with respect to time, at a certain time and a certain position, by using the diffusivity and flow rate of the material; an information-acquisition unit that acquires position information of disaster victims at a prescribed time as input information; and a calculation unit that obtains a critical value of the exposure amount by applying the position information of each disaster victim at the prescribed time to the exposure calculation formula and that specifies the disaster-affected area at the prescribed time on the basis of the exposure calculation formula for when the critical value is obtained.

Abstract: A control system for optimizing a chemical loop system includes one or more sensors for measuring one or more parameters in a chemical loop. The sensors are disposed on or in a conduit positioned in the chemical loop. The sensors generate one or more data signals representative of an amount of solids in the conduit. The control system includes a data acquisition system in communication with the sensors and a controller in communication with the data acquisition system. The data acquisition system receives the data signals and the controller generates the control signals. The controller is in communication with one or more valves positioned in the chemical loop. The valves are configured to regulate a flow of the solids through the chemical loop.

Abstract: A method of characterizing a mixture having a plurality of hydrocarbons includes: obtaining a set of predetermined pseudo-components, each pseudo-component representing a respective group of hydrocarbons; obtaining physical data about the hydrocarbon mixture; and determining from the data the amount of each pseudo-component considered to be present in the mixture.

Abstract: This invention relates to a system for and a method of filtering at least a part of gas chromatography-mass spectrometry data, the method comprising: providing gas chromatography-mass spectrometry data (301) for a gas mixture comprising data representing one or more gas chromatography elution peaks obtained for at least one sample, and filtering the gas chromatography-mass spectrometry data (301) to reduce the amount of data, wherein the filtering comprises taking into account predetermined data representing one or more elution peaks previously determined to be false positives (305) and/or predetermined data representing one or elution peaks previously determined to be true positives (304). In this way, unreliable elution peaks are removed in an expedient manner reducing the amount of data e.g. used for a later alignment process speeding up the processing time and also improving the data quality.

Abstract: An oxygen sensing system including an oxygen sensor, a microprocessor and one or more additional sensors for sensing parameters associated with the environment or with the oxygen sensor, accounts for one or more sensed conditions when calculating oxygen levels. The one or more sensors may sense conditions associated with environmental effects or effects of use that may cause the oxygen sensor to degrade over usage or over time. A baseline amplification and measurement circuit coupled to the oxygen sensor may enable the sensor to operate less frequently or for shorter periods of time, thereby increasing the life span, calibration hold time of the sensor, and reducing power requirements.

Abstract: Systems and methods are provided to perform sequential windowed acquisition of mass spectrometry data. A mass range and a mass window width parameter are received for a sample. A plurality of ions from the sample that are within the mass range are collected in an ion trap of a mass spectrometer. Two or more mass adjacent or overlapping windows are calculated to span the mass range using the mass window width parameter. Ions within each mass window are ejected from the ion trap. A mass spectrum is then detected from the ejected ions of the each mass window with a mass analyzer of the mass spectrometer, producing a collection of mass spectra for the mass range. The two or more mass windows can all have the same width, can all have different widths, or can have at least two mass windows with different widths.

Abstract: A system and method of measuring and analyzing a user's blood alcohol content are provided, the system comprising a wearable alcohol sensor that measures a user's blood alcohol content continuously or at random intervals, and a mobile device that receives blood alcohol content data from the wearable alcohol sensor, said mobile device being able to store and analyze the blood alcohol content data, to warn the user or others when the user's blood alcohol content is too high or when the user is unable to drive legally, and to use the stored data and the analysis results to predict the user's future blood alcohol content.

Abstract: There is disclosed a method for determining the heating value of a fuel, the fuel comprising at least one hydrocarbon including a first hydrocarbon present in the highest molar concentration, the method comprising: measuring the stoichiometric oxidation molar flow ratio of the fuel; determining the ideal molar heating value (HVm,i) from the measured stoichiometric oxidation molar flow ratio; measuring the molar concentration of the first hydrocarbon; and determining the real molar heating value (HVm,r) from the ideal molar heating value (HVm,i) and the molar concentration of the first hydrocarbon. An apparatus is also disclosed.

Abstract: The portable breathalyzer accessory combines a blood alcohol content measuring tool with a mobile device to measure, store, and send the blood alcohol content of the user. The portable breathalyzer device attaches to a mobile device, wired or wirelessly, to display the blood alcohol content of the user, which is measured through the portable breathalyzer attachment. The blood alcohol content is displayed as a percentage on the mobile device through the corresponding software application. The software application shows the user their blood alcohol content in comparison with the local blood alcohol content limit, which is found by determining the user's location through the GPS technology of the mobile device.

Abstract: A new method of making sky-LOSA measurements (Line-Of-Sight Attenuation measurements of sky-light) of soot mass flux in atmospheric plumes has been developed which enables accurate measurements in the presence of in-scattered light from the sky and sun.

Abstract: Sensing particular gases in a mixture uses precise modulated heating. Sensor relative responses are compared at different temperatures and compared with known relative responses to identify gases and concentrations. Heater current sensors provide feedback control and microprocessor inputs. A processor controls complex impedances and varied frequencies in the sensors. Sensor responses at varied complex impedances and at varied frequencies are compared with known responses at those impedances and frequencies to determine existence and concentration of particular gases. Heater and sensor buses are separate or combined.

Abstract: The chemical distance between fingerprints of fluid samples from a reservoir can be determined using statistical analyses. Upon performing chromatographic analyses on fluid samples from the reservoir, certain peak height values from the chromatograms are selected, and various peak height ratios are formed using the selected peak height values. An experimental distribution of the differences between the peak height ratios is produced using two chromatograms from one of the fluid samples and a theoretical distribution of the differences of the peak height ratios are produced assuming the two chromatograms are from the one of the fluid samples. An uncertainty model of the peak height values is optimized and the parameters of the optimized uncertainty model are used to modify the theoretical distribution. The interquartile ranges of the experimental distribution and the modified theoretical distribution are determined and the chemical distance between the samples is determined using the interquartile ranges.

Abstract: According to one embodiment, an emission factor calculating apparatus includes a receiving unit, a received electricity (i.e., electric power) measuring unit, a generated electricity measuring unit, and an emission factor calculating unit. The receiving unit receives an emission factor of a higher-level system at first regular intervals. The received electricity measuring unit measures, as a received electricity, electricity received from the higher-level system and accumulated. The generated electricity measuring unit measures electricity generated with zero emission in a target system. The emission factor calculating unit calculates a substantial emission factor of the target system at regular intervals (i.e., at a fixed interval), based on a ratio between the received electricity and the measured electricity generated, and the emission factor of the higher-level system. The emission factor calculating unit informs a load or a lower-level system of the substantial emission factor.

Abstract: The invention provides a mechanism for semi-quantitatively measuring individual isotopomer species of a molecule using gas chromatograph mass spectrometry. The method allows for semi-quantitatively tracking the movement of ions by measuring the individual isotopomer species of a molecule.